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1 Name Date STUDY GUIDE CHAPTER 1 ATOMS AND ELEMENTS 1) DESCRIBE THE RUTHERFORD-BOHR ATOMIC MODEL All matter is made of small particles called atoms. An atom is the smallest unit of matter that retains the identity of the substance. Scientists now know that inside an atom there are three subatomic particles and that atoms differ in the number and arrangement of these particles. Particle Charge Location electron negative(-) outside the nucleus proton positive (+) inside the nucleus neutron neutral (0 charge) inside the nucleus The protons and neutrons are found inside the nucleus of an atom. Electrons are found outside the nucleus; they move on circular paths (also called energy levels or simply shells). SAMPLE QUESTIONS: 1) The term nuclear charge refers to the overall charge of the nucleus of an atom. Complete the following sentence. The nuclear charge of an atom is always... A) negative B) positive C) neutral D) none of the above 2) Choose the correct answer to complete the following sentence: In all neutral atoms there are always... A) as many protons as. B) as many protons as neutrons. C) as many as neutrons. D) more neutrons than protons. Chapter 1 ATOMS AND ELEMENTS Page 1

2 3) Complete the following sentences: i) In the periodic table, elements in are organized in A) increasing order of their atomic number. B) increasing order of their atomic mass number. C) decreasing order of their atomic number. D) decreasing order of their atomic mass number. ii) The atomic number represents A) the number of protons in the nucleus. B) the number of neutrons in the nucleus. C) the number of in the nucleus. D) the sum of all the of protons and neutrons. iii) In the Rutherford-Bohr atomic model, are distributed in circular orbits also called ENERGY LEVELS; SHELLS; RINGS. 4) Listed below is information pertaining to the Rutherford-Bohr model of an atom of a chemical element. 1 The positive charges. 2 The negative charges. 3 The electron shells (energy levels). 4 The valence. Which table correctly illustrates the position of each of them? A Inside the nucleus Outside the nucleus 1, 2, and 3 4 B Inside the nucleus Outside the nucleus 1 2, 3 and 4 C Inside the nucleus Outside the nucleus 1and 2 3 and 4 D Inside the nucleus Outside the nucleus 2 and 3 1 and 4 Chapter 1 ATOMS AND ELEMENTS Page 2

3 2) REPRESENT ATOMS USING THE RUTHERFORD-BOHR MODEL The Rutherford-Bohr atomic model represents the nucleus in the center of an atom. The nucleus contains all the protons. The move around the nucleus on circular paths (represented by circles). The number of protons is equal to the atomic number (the smaller number found next to the symbol of the element in the periodic table). The number of is also equal to the atomic number. The number of neutrons can vary from an element to another. Electron shells can hold only certain numbers of. The distribution of for the first 20 elements is the following: Level 1-2 ; Level 2-8 ; Level 3-8 ; Level 4-2 ; Example: the following diagram is a representation of the oxygen atom according to the Rutherford-Bohr model. The atomic number of oxygen is 8 therefore this element is represented by 8 protons (positive charges) in the nucleus and 8 (negative charges) that are distributed as follows: - 2 on the first shell - 6 on the second shell. Figure 1 RUTHERFORD-BOHR DIAGRAM OF AN OXYGEN ATOM Chapter 1 ATOMS AND ELEMENTS Page 3

4 SAMPLE QUESTIONS: 1) Oxygen is a gas important for life and it represents about 21% of the Earth s atmosphere. Which of the illustrations below best represents a Rutherford-Bohr diagram of an oxygen atom? ANSWER: B) 2) Which of the following best represents the Rutherford-Bohr model of a calcium atom, 20Ca 40? ANSWER: B) Chapter 1 ATOMS AND ELEMENTS Page 4

5 3) Four different elements are represented below according to the Rutherford-Bohr atomic model. Write the name of each of the four elements on the line under the model. Name: LITHIUM Name: MAGNESIUM Name: POTASSIUM Name: CALCIUM 4) Draw the Rutherford-Bohr diagram of the following atoms: Sodium: Fluorine: Chapter 1 ATOMS AND ELEMENTS Page 5

6 3) DETERMINE THE NUMBER OF VALENCE ELECTRONS IN AN ELEMENT The number of valence an atom has is equal to the second digit of the group number that the element belongs to. Valence take part in all chemical reactions. Elements situated in the same group have the same number of valence. I A (1) VIII A (18) II A (2) III A (13) IVA (14) VA (15) VIA (16) VII A (17) 1 valence electron 2 valence 3 valence 4 valence 5 valence 6 valence 7 valence 8 valence SAMPLE QUESTIONS: 1) In the atomic model of potassium below, which letter represents a valence electron? ANSWER: D) Chapter 1 ATOMS AND ELEMENTS Page 6

7 2) Complete the following sentence with one of the options given: The valence are those situated of the atom. A) on the first energy level B) on the second energy level C) on the third energy level D) on the last energy level 3) What do the elements situated in the same group have in common? A) The same number of valence. B) The same number of protons. C) The same number of. D) The same number of electron shells. 4) Complete the following sentence: Elements situated in the same group display similar chemical properties because. A) They have similar sizes. B) They have the same number of electron shells. C) They have the same number of valence. D) They belong to the same period. 5) Write the number of valence that each of the elements depicted by the diagrams below have: A. C. 8 5 B. D. 3 2 Chapter 1 ATOMS AND ELEMENTS Page 7

8 4) REPRESENT ATOMS USING LEWIS NOTATION The Lewis notation is a representation of the atom in which the valence are illustrated by dots placed around the chemical symbol of the element. Example: the carbon atom. Rutherford-Bohr diagram Lewis notation If an element has more than four valence, they are doubled to form pairs of dots around the element. For example, neon is represented by eight valence. Rutherford-Bohr diagram Lewis notation SAMPLE QUESTIONS: 1) Draw a Lewis structure for each of the following elements: Chapter 1 ATOMS AND ELEMENTS Page 8

9 2) Which one of the following Lewis structures is NOT a CORRECT representation? A) boron B) sodium C) oxygen D) fluorine 35 3) Draw an electron energy level diagram (Rutherford-Bohr diagram) of Cl. 17 represent the chlorine atom using a Lewis diagram. Then Rutherford-Bohr diagram Lewis notation 4) Which of the following is the Lewis structure for magnesium? ANSWER: B) Chapter 1 ATOMS AND ELEMENTS Page 9

10 5) LOCATE THE GROUPS AND PERIODS IN THE PERIODIC TABLE The periodic table of the chemical elements is a tabular method of displaying the chemical elements. A group (family) is a column (vertical line) in the periodic table of the elements. The groups are numbered in two ways: from 1-18 and with roman numerals I, II, II, IV, V, VI VII and VIII. I A (1) II A (2) III A (13) IVA (14) VA (15) VIA (16) VII A (17) VIII A (18) A period is a row (horizontal line) in the periodic table of the elements. Periods are marked with numbers from 1-7, on the left side of the periodic table SAMPLE QUESTIONS 1) Consider some elements from the periodic table represented by the following chemical symbols: F, Cl, Br, I. What do these elements have in common? A) They belong to the same period. B) They belong to the same group. C) They are all gases at room temperature. D) They are all liquids at room temperature. Chapter 1 ATOMS AND ELEMENTS Page 10

11 6) ASSOCIATE THE NUMBER OF ELECTRON SHELLS IN AN ELEMENT WITH THE NUMBER OF ITS PERIOD; ASSOCIATE THE NUMBER OF VALENCE ELECTRONS IN AN ELEMENT WITH ITS FAMILY - Elements situated on the same period have the same number of electron shells (energy levels). - Elements situated in the same group have the same number of valence. SAMPLE QUESTIONS 1) What do the elements situated on the same period have in common? A) The same number of valence. B) The same chemical reactivity. C) The same number of electron shells. D) The same number of. 2) Four different elements are represented below according to the Rutherford-Bohr atomic model. On the line under the model, write the period these elements belong to. A. C. period 3 period 2 B. D. period 1 period 4 3) Specify the number of electron orbits and the number of valence for each of the elements in the table below. Name of element # of electron shells # of valence Name of element # of electron shells # of valence Calcium 4 2 Phosphorus 3 5 Argon 3 8 Hydrogen 1 1 Chapter 1 ATOMS AND ELEMENTS Page 11

12 4) The following diagram is a Bohr-Rutherford diagram of one element from the periodic table: To which group and period does this element belong? A) Period 3 group 4. B) Period 4 group 4. C) Period 3 group 1. D) Period 1 group 3. 5) Referring to the periodic table, find an element that has the same number of electron shells and valence as each of the following: Element Element with the same # of electron shells Element with the same # of valence Sodium Magnesium Lithium Hydrogen Helium Potassium Fluorine Boron Iodine Neon Fluorine Argon 6) Draw a Rutherford-Bohr atomic model for each of the following elements. Write the names of the elements in the space provided. a) I am an element with two electron shells and 4 valence. b) I am an element with three electron shells and 8 valence. Name of element: CARBON Name of element: ARGON Chapter 1 ATOMS AND ELEMENTS Page 12

13 7) DESCRIBE THE COMMON CHARACTERISTICS OF A GROUP Because all elements situated in the same group have the same number of valence, they display similar chemical properties. They are therefore, also called families. Some groups of the periodic table display very district characteristic and are given special names. Group 1 - ALKALI METALS (Li, Na, K, Rb, Cs, Fr) Soft, low melting, shiny metals: conduct heat and electricity. They are stored in oil due to their high reactivity (also named oily metals). Group 2 - ALKALINE EARTH METALS (Be, Mg, Ca, Sr, Ba, Ra) Harder, higher-melting metals: they conduct heat and electricity. They react with acids, water, oxygen and halogens, but not as violently as alkali metals. They are mainly found in rocks (therefore called earth metals). GROUP 17 (7) HALOGENS (F, Cl, Br, I, At) Very reactive elements. They are used for disinfecting. At room temperature they can be found in all three states: gases (Cl2 and F2), liquid (Br2) and solids (I2, At). GROUP 18 (8) INERT (NOBLE) GASES (He, Ne, Ar, Kr, Xe, Rn) They do not react with other elements (they are not chemically active). They are used in light fixtures. Chapter 1 ATOMS AND ELEMENTS Page 13

14 SAMPLE QUESTIONS 1) The diagram on the right represents the Rutherford-Bohr atomic model of an element. Which of the following is true? A) The element is located in period 1 and is an alkaline earth metal. B) The element is located in period 1 and is an alkali metal. C) The element is located in period 2 and is an alkali metal. D) The element is located in period 2 and is an alkaline earth metal. 2) To which chemical family do the following elements belong? At, Br, I a) inert gases b) alkaline earth c) halogens d) alkali metals 3) Which of the following series of elements represents the alkali metals family? a) Fe, Co, Ni, Cu, Zn b) Li, Na, K, Rb, Cs c) F, Cl, Br, I, At d) Li, Be, C, N, O 4) Where in the periodic table can you find the following? (Specify the number of the group) a) an alkaline earth metal? GROUP 2 (II) b) a noble gas? GROUP 18 (VIII) c) a halogen? GROUP 17 (VII) d) an alkali metal? GROUP 1 (I) 5) Draw a Lewis structure for each of the following elements. Remember to write the names of the elements. I am a noble gas belonging to the second period: NEON I am the lightest alkali metal: LITHIUM Chapter 1 ATOMS AND ELEMENTS Page 14

15 6) An element is examined in the laboratory. It is found to be a gas at room temperature. Also it reacts, vigorously with some metals. To which family or group does the element belong? HALOGENS 7) The atomic model of an element is shown below. What are, respectively, the group and the period number to which this element belongs? Answer: GROUP 2 (2 VALENCE ELECTRONS); PERIOD 4 (4 ELECTRON SHELLS) 8) The lab technician in your school s Chemistry lab needs a sample of potassium (K) for an upcoming experiment; however, she does not have enough of the metal. Instead of cancelling the lab, she decides to find an alternative in her supply cupboard. After searching, she finds four possible substitutes: argon (Ar); calcium (Ca); fluorine (F); sodium (Na). a) Which one of the elements listed above could she use as a substitute? SODIUM b) Justify your answer. SODIUM BELONGS TO THE SAME GROUP AS POTASSIUM, GROUP 1 A, BOTH ELEMENTS HAVE ONLY ONE VALENCE ELECTRON WHICH WILL EASILY DONATE IN CHEMICAL REACTIONS. THEREFORE, BOTH ELEMENTS DISPLAY SIMILAR CHEMICAL BEHAVIOUR. 9) Draw a Rutherford-Bohr atomic model for each of the following elements. Chapter 1 ATOMS AND ELEMENTS Page 15

16 Write the names of the elements in the space provided. I am the third element in the group of alkali metals I am a halogen metal with two electron shells. Name of element: POTASSIUM Name of element: FLUORINE 10) Six elements from the periodic table are described below. A. The lightest element B. A gas necessary for respiration C. A halogen whose are distributed among three energy levels D. An element that belongs to Period 2 and that has three on its outermost energy level E. An inert gas used to inflate balloons F. A metal necessary for the formation of bones and teeth Write the letters A, B, C, D, E and F in the appropriate boxes of the following periodic table. Chapter 1 ATOMS AND ELEMENTS Page 16

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